Post on 14-Nov-2020
ROGUE ELECTRON: A PHYSIC WARS STORY
THE VIP2 EXPERIMENT IS LOOKING FOR THE REBEL ELECTRON WHICH COULD
VIOLATE THE PAULI EXCLUSION PRINCIPLE
INSPYRE - 2nd APRIL 2019
Written and Directed by:Luca De Paolis
IN A WORLD FULL OF ELECTRONS RULED OUT BY THE PAULI EXCLUSION PRINCIPLETHERE COULD BE A LITTLE GROUP OF REBEL ELECTRONS WHICH JUMP AMONG ATOMS.
THE NOBEL PRIZE FOR PHYSICS W. E. PAULI DECLARED IN 1945:“ALREADY IN MY ORIGINAL PAPER I STRESSED THE CIRCUMSTANCE THAT I WAS UNABLE TO GIVE A LOGICAL REASON FOR THE EXCLUSION PRINCIPLE OR TO DEDUCE IT FROM MORE GENERAL ASSUMPTIONS.
I HAD ALWAYS THE FEELING AND I STILL HAVE IT TODAY, THAT THIS IS A DEFICIENCY.... THE IMPRESSION THAT THE SHADOW OF SOME INCOMPLETENESS [FALLS] HERE ON THE BRIGHT LIGHT OF SUCCESS OF THE NEW QUANTUM MECHANICS SEEMS TO ME UNAVOIDABLE.”
IN 2016 A SMALL GROUP OF PHYSICISTS BUILT A STRONG MACHINE WHICH COULD GIVE THEM ENOUGH POWER TO IDENTIFY THESE REBELS.
THIS EXPERIMENT IS CALLED VIP2 (Violation of Pauli). THE REBEL ELECTRON HUNT CONTINUES….
INDEX1. How it is possible to investigate the Pauli exclusion
principle (PEP) with VIP2
2. Historical goals: from Ramberg and Snow(RS) experimentto VIP
3. The VIP2 experiment: purpose and apparatus
4. The calculation of a NEW upper LIMIT for the PEP violation probability of electrons in copper got with data acquired until July 2017.
In Quantum Mechanics the PEP can be formalized starting from twofundamental principles:
1) All states, including those related to identical particles, are described in terms of wave functions
2) Bosonic and fermionic states have a different behavior in relation to the application of the exchange transformation (permutation) of identical particles: the former are symmetrical and the latter are anti-symmetrical
This superselection rule "does not appear as a necessary feature of the quantum-mechanical description of nature".
Messiah A.M.L. and Greenberg O.W.; Physics Review 1964, 136, B248.
1. How it is possible to investigate the PEP with VIP2
States of mixed symmetry could, therefore, in principle, exist
1. How it is possible to investigate the PEP with VIP2
Possible existence of particle statesthat follow a different statistic than the fermionic or bosonic one.
“Possible external motivations for violation of statisticsinclude: (a) violation of CPT, (b) violation of locality, (c) violation of Lorentz invariance, (d) extra space dimensions, (e) discrete space and/or time and (f) noncommutativespacetime….”.
O.W. Greenberg: AIP Conf.Proc.545:113-127,2004
O. Greenberg, one of the pioneers of parastatistic studies, says that a possible violation of the PEP could be due to:
The experimental method of VIP2 is based on the introduction of "new" electrons in a copper bar by applying an electric current.
A small violation of PEP can be described in Quantum Mechanics asproposed by Greenberg in
Whenever an electron is captured by an atom, a new state is formed that can have a certain probability of being a mixed symmetry state. This state is highly excited and from its decay one could observe a possible transition prohibitedby the PEP.
O.W. Greenberg, Nucl. Phys. B (Proc. Suppl.)6, 83–89(1989):
1. How it is possible to investigate the PEP with VIP2
Experimental goal: Search for X-rays from PEP violating transitions
8.05 keV in Cu
~ 7.74 keV in Cu
MULTICONFIGURATIONAL DIRAC-FOCK METHODSoftware for muon atoms adapted to non-antisymmetric electronsParameter optimization through a self-consistent processIt takes into account: relativistic and radiative corrections, lamb-shift, Breitoperator, ......
Energy transition Kα allowed:
PEP forbidden Kα energy transition:
An e- in any level n>2 make a transition to level 2P.The non-Paulian transition to level 1S produces the emission of a PEP violating X-ray.
C. Curceanu, L. De Paolis et al., “Evaluation of the X-raytransition energy for the Pauli-principle-violatingatomic transitions in several elements by using Dirac-Fock method”, 2013, INFN-13-21/LNF.
1. How it is possible to investigate the PEP with VIP2
8
2. Historical Goals: Ramberg and Snow(RS) experiment
With current
Without current
Spectra got in 2 month of data taking
gas-tube detector 15% resolution @ 8-9 keV
In 1988 Ramberg and Snow performed a dedicated experiment which sought to identifyanomalous transition, forbidden by PEP, of electrons in a copper target crossed by a current.
Schematization of the RS apparatus
The upper limit to the probability of violation of PEP for electrons in copper calculated by RS experiment is:
x107.12
26-2
[Phys. Lett. B238 (1990) – 438]
• More sensitive X-ray detectors covering more surface: Charge Coupled Device (CCD)
• A cleaner and low-background experimental area (LNGS)
• A better statistic due to the longer time taken.
Improvements made respect to RS experiment:
Spectrum with current: I = 40 A Spectrum of background: I = 0 A
KeV KeV
2. Historical Goals: The VIP experiment
The VIP experiment has reduced the experimental limit on the violation of PEP for electrons in copper, thanks to the CCD detectors more sensitive than RS gas detectors and to the Gran Sasso mountain which broke down a large amount of background, until…
292
107.42
−
Curceanu, C. et al.: J. Phys. 306, 012036 (2011)
FWHM = Γ = 300 eV
ROI: [7585,7895]
NX+X = 37 146
rivscattnewx EffNNN 10
1
2
2
Subtracting spectra, the one acquired with current of 40 A on target and the other one acquired without current on target, has been possible to extract the number of X-raysmeasured with an energy inside the range of interest (ROI) for a possible violation of PEP.
2. Historical Goals: The VIP experiment
3. The VIP2 experiment: purpose and apparatus.
Schematization of the VIP2 chamber Target of VIP2
Characteristics of the target: the 2 strips (10 cm x 1 cm x 50 µm) are connected to an external generator by 2 thin copper bars. Due to the Joule effect, the current is heats the target to 20 ° C.A water circuit cools them so that the temperature of the detectors does not increaseby more than 2K.
From CCD to SDD – Energy resolution
3. The VIP2 experiment: Silicon Drift Detectors (SDDs)
13
SDDs provide information on radiationenergy and timing -> measurementperformed with respect to the scintillatortrigger: 400 ns (FWHM).
3. The VIP2 experiment: Silicon Drift Detectors (SDDs)
The energy resolution was tested with a Fe-55 source through a 25 μm thick Ti-plate. The lines of the K series of Mn and Ti are used to calibrate the spectrum and measurethe energy resolution at 6 keV (rate of about 2 Hz). This test resulted in a resolution of about 150 eV at 6 KeV.
In the apparatus the SDDs are organized in 2 chips containing 3 cells with 100 mm2 of activearea each. Those chips surround the target to optimize the coverage on a solid angle and are cooled to T≈ 100 K by liquid Argon to get a better performance in terms of energy resolution.
SUFFICIENT TEMPORAL RESOLUTION TO DISCRIMINATE THE BACKGOUND EVENTS
3. The VIP2 experiment: the VETO system
Used to select incident events with high energy RC unshielded from rock and environmental background.
Composed of 32 plastic scintillators measuring45x3x3 cm and covering a solid angle > 90% compared to the target.
The scintillators are read by pairs of SiPM (with 3x3 cm2 of active surface each) located at both ends.
THE ACTIVE SHIELD ALLOWS TO REDUCE THE BACKGROUND IN THE RANGE OF INTEREST FOR A VIOLATION X-RAY OF ABOUT 1 ORDER OF GRANDNESS
• More compact system → improves acceptance• New target → 2 strips 10 cm x 1 cm x 50 µm • Different cooling system for the target (water) • Current flowing into the target > 100 A• Nitrogen flushing to reduce radon in barrack• New SDD detectors with better resolution,
cooled with liquid Argon (110 K). • Veto system with plastic scintillators read by
SiPM (Silicon Photomultiplier)• Expected data acquisition 3-4 years.
Improvents with regard to VIP:
31292
10107.42
−− →
FUTURE GOAL:
3. The VIP2 experiment: future goal
3. The VIP2 experiment: photo of the apparatus
Subtracting the spectra got with data taking until July 2017:
𝛽2
2≤ 1.87 × 10−29
P. Andreas et al., «Test of the Pauli Exclusion Principle for Electrons in the Gran Sasso Underground Laboratory», PHD Thesis, 2018.
We note how with VIP2 we have managed, in the space of about three months of data collection, to determine a value of the upper limit of the PEP violation slightly better than that obtained by VIPin about three years of measurement.
4. NEW upper LIMIT for the PEP violation probability
Δ𝑁𝑥 = 97 ± 91 Normalized to 81 days
rivscattnewx EffNNN 10
1
2
2
Confidence Level: 99.73%
CONCLUSION
VIP2: MAY THE FORCE
BE WITH YOU
W. E. PAULI
Thank you all for your attention !!
Modello di Ignatiev & Kuzmin
The operators of creation and destruction allow 3 states:
vuoto
stato di singola occupazione
stato non-standard di doppia occupazione ( due fermioni hanno lo stesso stato )
0
1
2
attraverso le relazioni:
02
21
10
=
=
=
+
+
+
a
a
a
12
01
00
=
=
=
a
a
a
I & K built the simplest algebra of creation and destruction operators which incorporates in the parameter piccole the small violations of the Pauli exclusion principle.
Non-Paulian atoms having an abnormal distribution of electrons on the orbitals
Note that for → 0 we find the Fermi – Dirac statisticand the exclusion principle is absolutely valid.
The parameter expresses the degree of violation in the transition
1 → 2
LNF no shielding
Test setup with 2 CCD –Normalized distribution
LNGS with shielding
LNF with shielding
Why at LNGS?
The background isreduced of a factorof ~ 20
VIP2: l’upgrade di VIPFrom CCD to SDD – Energy resolution
Δ𝑁𝑥 ≥𝛽2
2
1
10𝑁𝑛𝑒𝑤𝑁𝑠𝑐𝑎𝑡𝑡 × 𝐸𝑓𝑓𝑟𝑖𝑣
Δ𝑁𝑥 = 97 ± 91
tIe
Nnew
=
1
DLenght of the electronic path(≈10 cm)
Mean free path: m8109.3 −=
The probability of electron captureis greater than 1/10 of the scattering probability.
The detection efficiency factor wascalculated using a Monte Carlo simulationbased on Geant 4.10. The determined valueis around 1% .
𝛽2
2≤ 1.87 × 10−29
Confidence level: 99.7%
Procedure for extracting the upper limit on the probability of violation of PEP in VIP2.